1.Inhibitory Effect of Eukaryotic Expression Vector Bearing TFPI-2 Gene on SHI-1 Cell Growth.
Jun-Jun LI ; Pei LIAO ; Feng WEN ; Ze-Yu LUO ; Yi-Xiong CAO
Journal of Experimental Hematology 2019;27(6):1812-1819
OBJECTIVE:
To construct a eukaryotic expression vector of human tissue factor pathway inhibitor-2 (TFPI-2) and to investigate the effect of TFPI-2 gene on the growth of acute monocytic leukemia cell line (SHI-1).
METHODS:
The cDNA of TFPI-2 was obtained by genetic chemical synthesis, the TFPI-2 gene and the linear vector fragment were ligated and inserted into the multiple cloning site of PEGFP-N1 vector, and the eukaryotic expression vector PEGFP-N1-TFPI-2 was transfected SHI-1 cells, then the obtained SHI-1 cells was observed by fluorescence microscopy; MTT assay was used to detect the effect of TFPI-2 gene on the relative growth rate of SHI-1 cells at the different time-point; RT-PCR was used to detect TFPI-2 mRNA expression levels in the cells of each group before and after TFPI-2 transfection; TFPI-2 protein expression was detected by Western blot. The cells which successfully transfected with PEGFP-N1-TFPI-2 vector were named as SHI-1-TFPI-2 (experimental group), and the cells transfected with the empty vector pEGFP-N1 and the untransfected cells were named as SHI-1-V and SHI-1-P and used as the control group.
RESULTS:
The human TFPI-2 gene eukaryotic expression vector PEGFP-N1-TFPI-2 was successfully constructed, then the transfected into SHI-1 cells, observed by fluorescence microscopy 24 hours later, as a result, the PEGFP-N1-TFPI-2 was successfully transferred into SHI-1 cells, and the number of fluorescent cells increased after 48 h and 72 h. RT-PCR showed that the gray scale ratio of TFPI-2 gene to β- actin in the experimental group was higher than that in the control group. The gray scale ratio was 0.51±0.04 in SHI-1-V group, 0.52±0.03 in SHI-1-P group, 0.87±0.08 in SHI-1-TFPI-2 group, and the difference between SHI-1-TFPI-2 and SHI-1-V, SHI-1-P group was statistically significant (P<0.05).
CONCLUSION
The expression of TFPI-2 gene in PEGFP-N1-TFPI-2 can inhibit the growth of SHI-1 cells, which provides a research direction for gene therapy of leukemia in the future.
Eukaryota
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Genetic Vectors
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Glycoproteins
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metabolism
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Green Fluorescent Proteins
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Humans
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Transfection
2.Orange fluorescent protein--modification of green fluorescent protein GFPxm.
Wen-Xin LUO ; Min CHEN ; Tong CHENG ; Bao-Quan GUAN ; Shao-Wei LI ; Shao-Jing LI ; Jun ZHANG ; Ning-Shao XIA
Chinese Journal of Biotechnology 2003;19(1):56-62
Recently, we have reported a new gfp gene isolated from Aequorea macrodactyla. The protein purified from expressed E. coli exhibited an excitation peak at 476 nm and an emission peak at 496 nm. However, the drawback of only maturing to fluorescence at low temperature limited its applications. In this paper, we further describe twelve mutants of GFPxm. Seven mutants produced enhanced fluorescence when expressed in E. coli at higher temperature (37 degrees C). After six hours of induction at 25 degrees C, 32 degrees C and 37 degrees C respectively, the relative fluorescent intensities of GFPxm16, GFPxm18 and GFPxm19 were higher than that of EGFP, moreover GFPxm16 and GFPxm163 could preserve high fluorescent intensity even expressed at 42 degrees C. Four mutants of the seven could reach high expression level in three kind of mammalian cells. Another 6 mutants had red-shift of excitation-emission maxima, and longest excitation-emission maxima were 514nm and 525nm. Another three mutants had two excitation peaks, and one mutant had only one UV-excitation peak. The most exciting result is the mutant of OFPxm with orange color. The mutant has an excitation peak at 509 nm and an emission peak at 523nm. 523nm is yellowish green but the protein is orange observed by eyes. The mutant could reach high expression level and matured at higher temperature but the fluorescent intensity was comparatively low because of low quantum yield.
Animals
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Electrophoresis, Polyacrylamide Gel
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Green Fluorescent Proteins
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genetics
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metabolism
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Humans
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Luminescent Proteins
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genetics
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metabolism
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Mutation
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Temperature
3.Development of a purification tag to produce thermostable fused protein.
Weixin ZHAO ; Song LIU ; Liming LIU ; Jian CHEN ; Guocheng DU
Chinese Journal of Biotechnology 2019;35(4):626-635
Self-assembling amphipathic peptides (SAPs) have alternating hydrophilic and hydrophobic residues and can affect the thermal stabilities and catalytic properties of the fused enzymes. In this study, a novel multifunctional tag, S1vw (HNANARARHNANARARHNANARARHNARARAR) was developed to modify fused enzymes. After fusing S1vw at the enzymes/proteins N-terminus through a PT-linker, the crude enzymatic activities of polygalacturonate lyase and lipoxygenase were enhanced 3.1- and 1.89-fold, respectively, compared to the wild-type proteins. The relative fluorescence intensity of the green fluorescent protein was enhanced 16.22-fold. All the three S1vw fusions could be purified by nickel column with high purities and acceptable recovery rates. Moreover, S1vw also induced the thermostabilities enhancement of the fusions, with polygalacturonate lyase and lipoxygenase fusions exhibiting 2.16- and 3.2-fold increase compared with the corresponding wild-type, respectively. In addition, S1vw could enhance the production yield of green fluorescent protein in Escherichia coli and Bacillus subtilis while the production of GFP and its S1vw fusion changed slightly in Pichia pastoris. These results indicated that S1vw could be used as a multifunctional tag to benefit the production, thermal stability and purification of the fusion protein in prokaryotic expression system.
Escherichia coli
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Green Fluorescent Proteins
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Hydrophobic and Hydrophilic Interactions
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Peptides
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Pichia
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Recombinant Fusion Proteins
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metabolism
4.Microfluidic chip for detecting the expression of green fluorescent protein in Bacillus subtilis.
Huijun DONG ; Jinglin FU ; Yongquan LI ; Junyun JIANG
Chinese Journal of Biotechnology 2009;25(7):1077-1081
Laser scanning confocal microscope (LSCM) is currently the only equipment to observe fluorescence. However, this technique has disadvantages such as high cost and long test process. In this study, we developed a new system of laser-induced fluorescence (LIF) for microfluidic chip applied to detecting the expression of green fluorescent protein (GFP) in Bacillus subtilis. This novel system was comprised of laser device, optics unit, microfluidic chip, photomultiplier and computer treatment unit. The tests indicated that microfluidic chip could detect the expression of GFP as sensitively as LSCM in Bacillus subtilis. Moreover, this LIF detection system could instead of PCR to identify the positive clone in this special case. Nevertheless, the LIF system only was suitable to detect the fluorescent strength of GFP, and could not meet the request of some cases for example protein location. Therefore, this system will be applied in environmental detection with microbe, drug discovery and other cases.
Bacillus subtilis
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isolation & purification
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metabolism
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Green Fluorescent Proteins
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biosynthesis
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genetics
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Microfluidic Analytical Techniques
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methods
5.Transformation of enhanced green fluorescent protein gene in Paecilomyces lilacinus mediated by Agrobacterium tumefaciens.
Jieping WANG ; Jiaxu WANG ; Fan LIU ; Cangsang PAN
Chinese Journal of Biotechnology 2010;26(5):630-634
The main aim of this study was to transform the enhanced green fluorescent protein gene (egfp) into biocontrol fungus Paecilomyces lilacinus strain 9410. We constructed the expression vector pUPNGT of the fusion gene nptII-egfp using pcDNA3.1(-) as a helper plasmid. The egfp gene was then transformed into P. lilacinus strain 9410 via Agrobacterium tumefaciens-mediated transformation. PCR and Southern blotting analysis showed that the egfp gene was integrated into the genomes of the tested transformants and the integration manner was single-copy. The transformants could generate green fluorescence when they were excited by 488 nm blue laser. These results indicated that the egfp gene had been successfully transformed into P. lilacinus 9410 and expressed in the tested transformants. Our work may provide a new approach to assess environmental safety and practical biocontrol efficacy ofP. lilacinus under different conditions.
Agrobacterium tumefaciens
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genetics
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Green Fluorescent Proteins
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genetics
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Paecilomyces
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genetics
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metabolism
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Polymerase Chain Reaction
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methods
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Transformation, Genetic
6.Direct modification of spermatogonial stem cells using lentivirus vectors in vivo leads to efficient generation of transgenic rats.
Bang-Jin KIM ; Yong-Hee KIM ; Myeong-Geun OH ; Ki-Jung KIM ; Sang-Eun JUNG ; Ju-Hee JIN ; Sun-Uk KIM ; Kwan-Sik MIN ; Buom-Yong RYU
Asian Journal of Andrology 2019;21(2):190-195
Spermatogonial stem cells (SSCs) transmit genetic information to the next progeny in males. Thus, SSCs are a potential target for germline modifications to generate transgenic animals. In this study, we report a technique for the generation of transgenic rats by in vivo manipulation of SSCs with a high success rate. SSCs in juvenile rats were transduced in vivo with high titers of lentivirus harboring enhanced green fluorescent protein and mated with wild-type females to create founder rats. These founder rats expressed the transgene and passed on the transgene with an overall success rate of 50.0%. Subsequent generations of progeny from the founder rats both expressed and passed on the transgene. Thus, direct modification of SSCs in juvenile rats is an effective means of generating transgenic rats through the male germline. This technology could be adapted to larger animals, in which existing methods for gene modification are inadequate or inapplicable, resulting in the generation of transgenic animals in a variety of species.
Animals
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Green Fluorescent Proteins
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Lentivirus
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Male
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Rats
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Rats, Transgenic
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Spermatogonia/metabolism*
7.The labeling of C57BL/6j derived embryonic stem cells with enhanced green fluorescent protein.
Lu TENG ; Chongben ZHANG ; Jiefang YOU ; Kegang SHANG ; Jun GU
Chinese Medical Journal 2003;116(1):151-153
OBJECTIVETo labele MESPU35, a embryonic stem (ES) cell line derived from C57BL/6j mouse, with enhanced green fluorescent protein (EGFP) for further application.
METHODSThe EGFP gene was controlled by the hybrid CA promoter/enhancer (CMV enhancer/chicken beta-actin promoter/beta-actin intron) to construct the vector of the transgene, pCA-EGFP. The vector was transfected into MESPU35 by electroporation.
RESULTSWe generated EGFP expressing ES cells demonstrating normal properties. The green fluorescence of EGFP expressing cells was maintained in propagation of the ES cells for more than 30 passages as well as in differentiated cells. Cultured in suspension, the "green" ES cells aggregated, and formed embryoid bodies maintaining the green fluorescence at varying developmental stages. The "green" embryoid bodies could expand and differentiate into various types of cells, exhibiting ubiquitous green fluorescence.
CONCLUSIONSThe hybrid CA promoter/enhancer used to control the EGFP expressing ES cells, resulted in more intense and ubiquitous activity. The EGFP transfected cells yield bright green fluorescence, which can be visualized in real time and in situ. In addition, the ES cells, MESPU35, are derived from C57BL/6j mice, which are the most widely used in oncology, physiology and genetics. Compared to 129 substrains, C57BL/6j mice avoid a number of potential problems apparent in the other strains.
Animals ; Embryo, Mammalian ; cytology ; metabolism ; Green Fluorescent Proteins ; Luminescent Proteins ; genetics ; Mice ; Mice, Inbred C57BL ; Stem Cells ; metabolism ; Transfection
8.Co-occlusion of foreign protein into polyhedra with BmNPV polyhedrin.
Xing-Wei XIANG ; Rui YANG ; Lin CHEN ; Xiao-Long HU ; Shao-Fang YU ; Xiao-Feng WU
Chinese Journal of Virology 2011;27(4):366-371
In order to make clear the packing mechanism of the BmNPV polyhedra, a polyhedrin gene negative recombinant baculovirus, vBmBac(polh-)-5B-EGFP, expressing EGFP was constructed, and used to infect BmN cells jointly with wild-type BmNPV. Fluorescent microscopic observation demonstrated that EGFP and polyhedrin were expressed simultaneously, and the EGFP expression and polyhedra formation occurred in most of the jointly infected cells. Analysis of the purified polyhedra from jointly infected BmN cells showed that the foreign proteins were present in the polyhedra. The results indicated that BmNPV polyhedrin could incorporate proteins other than viral proteins into the polyhedra. It implies that a nonspecific recognition mechanism exists in the embedment of BmNPV polyhedra.
Animals
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Bombyx
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Gene Expression
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Green Fluorescent Proteins
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genetics
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metabolism
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Nucleopolyhedrovirus
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genetics
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physiology
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Viral Structural Proteins
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genetics
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metabolism
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Virus Assembly
9.Surface expression of NMDA receptors composed of NR1 subunit and NR2A subunit mutants with partially deleted C-terminus in HEK293 cells.
Chan-ying ZHENG ; Jian-hong LUO ; Ting FU ; Wei YANG ; Hai-qing SHEN
Journal of Zhejiang University. Medical sciences 2003;32(6):475-479
OBJECTIVETo examine the potential function of NMDA receptor NR2A subunit C-terminus in assembling and surface expression of the receptor in HEK293 cells.
METHODSFive vectors GFP- NR2ADeltaC1- DeltaC5 were constructed for expressing N-terminally GFP-tagged NR2A with C-terminal deletion at different regions by using conventional techniques of molecular cloning. The deleted region for NR2ADeltaC1-Delta C5 was 897L-1017S, 1024D-1142P, 1149D-1347G, 1354S-1464V, and 897L-1464V. These plasmids were transfected alone or co-transfected with NR1-1a into HEK293 cells. The surface NMDA receptors were immuno-stained using rabbit antibody against GFP and Cy3 conjugated secondary antibody in living cells.
RESULTThe vectors GFP-NR2ADeltaC1-DeltaC5 were generated and all of them expressed GFP fluorescence in the transfected cells. Surface NMDA receptors were detected by immuno-labeling with anti-GFP in the cells co-transfected by NR1-1a and any one of GFP-NR2ADeltaC1-DeltaC5. However, no surface expression of NR2A proteins was found in the transfected cells with any one of these plasmids alone.
CONCLUSIONWithin the region downstream from the 897L of NR2A subunit, neither a particular domain directly interacted with ER retention domain in NR1-1a C1 cassette, nor that determining ER retention of NR2A subunit itself has been found, indicating that more complicated mechanisms might exist in which the subunit assembling and targeting to plasma membrane of NMDA receptors undergo.
Cell Line ; Gene Deletion ; Green Fluorescent Proteins ; Humans ; Luminescent Proteins ; metabolism ; Mutation ; Receptors, N-Methyl-D-Aspartate ; analysis ; genetics
10.Establishment of a microtubule-fluorescent fusion protein mosaically labeled zebrafish motor neuron system.
Fang YUAN ; Pei-Pei QIAN ; Xin WANG ; Jia-Jing SHENG ; Dong LIU ; Jie GONG
Acta Physiologica Sinica 2022;74(3):411-418
Motor neurons are an important type of neurons that control movement. The transgenic fluorescent protein (FP)-labeled motor neurons of zebrafish line is disadvantageous for studying the morphogenesis of motor neurons. For example, the individual motor neuron is indistinguishable in this transgenic line due to the high density of the motor neurons and the interlaced synapses. In order to optimize the in vivo imaging methods for the analysis of motor neurons, the present study was aimed to establish a microtubule-fluorescent fusion protein mosaic system that can label motor neurons in zebrafish. Firstly, the promotor of mnx1, which was highly expressed in the spinal cord motor neurons, was subcloned into pDestTol2pA2 construct combined with the GFP-α-Tubulin fusion protein sequence by Gateway cloning technique. Then the recombinant constructs were co-injected with transposase mRNA into the 4-8 cell zebrafish embryos. Confocal imaging analysis was performed at 72 hours post fertilization (hpf). The results showed that the GFP fusion protein was expressed in three different types of motor neurons, and individual motor neurons were mosaically labeled. Further, the present study analyzed the correlation between the injection dose and the number and distribution of the mosaically labeled neurons. Fifteen nanograms of the recombinant constructs were suggested as an appropriate injection dose. Also, the defects of the motor neuron caused by the down-regulation of insm1a and kif15 were verified with this system. These results indicate that our novel microtubule-fluorescent fusion protein mosaic system can efficiently label motor neurons in zebrafish, which provides a more effective model for exploring the development and morphogenesis of motor neurons. It may also help to decipher the mechanisms underlying motor neuron disease and can be potentially utilized in drug screening.
Animals
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Animals, Genetically Modified
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Green Fluorescent Proteins/pharmacology*
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Microtubules/metabolism*
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Motor Neurons
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Zebrafish/genetics*
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Zebrafish Proteins/genetics*